Flipper-type electronics cabinet having circuit controlling device

ABSTRACT

A flipper-type electronics cabinet includes a cabinet body, two first sliding rails, two second sliding rails, two third sliding rails, a carrying tray, a door plate, an accommodating tray, and a circuit controlling device. The circuit controlling device is disposed in the cabinet body and includes a controlling interface, a controller, a master switch circuit, a first switch circuit, and a second switch circuit. The controlling interface includes a master switch key, a first switch key, and a second switch key. The controller enters an operation or standby mode according to the master switch signal received. When the controller enters the standby mode, the master switch circuit is switched-off, and when the controller enters the operation mode, the master switch circuit is switched-on. When the controller enters the operation mode, the controller is used to respectively control the first and second switch circuits to be switched-on or switched-off.

CROSS-REFERENCE TO RELATED PATENT APPLICATION

This application claims the benefit of priority to Taiwan Patent Application No. 111126561, filed on Jul. 15, 2022. The entire content of the above identified application is incorporated herein by reference.

Some references, which may include patents, patent applications and various publications, may be cited and discussed in the description of this disclosure. The citation and/or discussion of such references is provided merely to clarify the description of the present disclosure and is not an admission that any such reference is “prior art” to the disclosure described herein. All references cited and discussed in this specification are incorporated herein by reference in their entireties and to the same extent as if each reference was individually incorporated by reference.

FIELD OF THE DISCLOSURE

The present disclosure relates to an electronics cabinet, and more particularly to a flipper-type electronics cabinet having a circuit controlling device.

BACKGROUND OF THE DISCLOSURE

As the main place for cooking in every household, the kitchen is where various electrical appliances such as electric pots, electric cookers, ovens, microwave ovens, and hot water bottles are located. However, without proper placement of these electrical appliances, the kitchen can quickly become disorganized.

Currently, an electronics cabinet is used for accommodating the abovementioned electrical appliances, and two sockets are disposed inside the electronics cabinet for two electrical appliances that are placed in the cabinet to provide electricity to the two electrical appliances. Locally, the most common electrical appliance that is placed in the cabinet is an electric rice cooker, which may be used for a long time and is present in almost every household. There is only one pop-up switch on the common electric rice cooker, and after pressing the switch, the electric rice cooker begins cooking. After the food is finished cooking, the pop-up switch will pop up so that the electric rice cooker starts keeping the food warm. This electric rice cooker is unable to be automatically switched-off, and continues warming the food and consuming electricity. When it is no longer necessary to warm the food, or when the electric rice cooker needs to be turned off, the only way is to manually unplug the plug. Therefore, for example, when two electronic appliances are placed in the electronics cabinet, e.g., a stewing pot and the electric rice cooker having only one pop-up switch, and the electric rice cooker finishes cooking, the pop-up switch of the electric rice cooker pops up so that the electric rice cooker starts to warm the food. At this time, the stewing pot still needs to perform cooking for a long period of time (e.g., 4 hours to 6 hours). Therefore, in order for the electric rice cooker to stop warming the food which consumes electricity, the user usually needs to put his hand into the electronics cabinet that is full of hot air to find the plug of the electric rice cooker and unplug the plug, which is quite inconvenient and dangerous. However, if the user switches off a power button on a socket panel of the electronics cabinet to avoid inconvenience and danger, the power will stop being supplied to both sockets in the electronics cabinet at the same time, causing the stewing pot to stop cooking suddenly and greatly inconveniencing the user. Since the common electric rice cooker with the single pop-up switch is very durable and easy to use, it is a difficult appliance to be replaced in the household, but since the electric rice cooker is commonly placed in the electronics cabinet to result in inconvenience and danger, there is still room for improvement on this long existing problem in the related art.

SUMMARY OF THE DISCLOSURE

In response to the above-referenced technical inadequacies, the present disclosure provides a flipper-type electronics cabinet having a circuit controlling device.

In order to solve the above-mentioned problems, one of the technical aspects adopted by the present disclosure is to provide a flipper-type electronics cabinet. The flipper-type electronics cabinet includes a cabinet body, two first sliding rails, two second sliding rails, two third sliding rails, a carrying tray, a door plate, an accommodating tray, and a circuit controlling device. The cabinet body includes a top plate, a bottom plate, a rear plate, and two side plates. A first space and a second space are formed between the top plate, the bottom plate, the rear plate, and the two side plates. An opening is formed at a front side of the cabinet body, and the opening is in fluid communication with the first space and the second space. A first socket and a second socket are disposed at a rear side of the cabinet body and are accessible from the first space, respectively. The two first sliding rails are oppositely disposed on the two side plates of the cabinet body. The two first sliding rails are located in the first space. The two second sliding rails are oppositely disposed on the two side plates of the cabinet body. The two third sliding rails are oppositely disposed on the two side plates of the cabinet body. The two third sliding rails are located in the second space. A left side and a right side of the carrying tray are respectively located on the two first sliding rails. A left side and a right side of the door plate are respectively located on the two second sliding rails, and the door plate is able to capable of being opened and closed relative to the cabinet body. A left side and a right side of the accommodating tray are respectively located on the two third sliding rails. The circuit controlling device is disposed in the cabinet body. The circuit controlling device includes a controlling interface, a controller, a master switch circuit, a first switch circuit, and a second switch circuit. The controller is electrically connected to the controlling interface, the master switch circuit, the first switch circuit, and the second switch circuit, the first switch circuit is electrically connected between the master switch circuit and the first socket, and the second switch circuit is electrically connected between the master switch circuit and the second socket. The controlling interface includes a master switch key, a first switch key, and a second switch key, the master switch key is used to generate a master switch signal that is transmitted to the controller, the first switch key is used to generate a first switch signal that is transmitted to the controller, and the second switch key is used to generate a second switch signal that is transmitted to the controller. The controller is used to enter an operation mode or a standby mode according to the master switch signal that is received by the controller. When the controller enters the standby mode, the master switch circuit is switched-off, and when the controller enters the operation mode, the master switch circuit is switched-on. When the controller enters the operation mode, the controller is used to respectively control the first switch circuit and the second switch circuit to be switched-on or switched-off according to the first switch signal and the second switch signal that are received by the controller.

In one of the possible or preferred embodiments, the first switch circuit includes a first left switch and a first right switch that are electrically connected to each other and are electrically connected to the controller, respectively, and the second switch circuit includes a second left switch and a second right switch that are electrically connected to each other and are electrically connected to the controller, respectively. The first left switch and the second left switch are semiconductor switches, and the first right switch and the second right switch are relay switches. When the controller switches the first switch circuit or the second switch circuit from being switched-on to being switched-off, the controller switches the first left switch or the second left switch to quickly be switched-off, and then switches the first right switch or the second right switch to be switched-off.

In one of the possible or preferred embodiments, the controller is further used to continuously record a manually switched-off frequency of the first switch circuit and the second switch circuit, so as to automatically switch off the first switch circuit or the second switch circuit according to a higher one of manually switched-off frequencies of the first switch circuit and the second switch circuit.

In one of the possible or preferred embodiments, the cabinet body includes at least one exhaust fan disposed inside the cabinet body, the circuit controlling device further includes an exhaust fan controlling circuit, and the exhaust fan controlling circuit is electrically connected between the controller and the exhaust fan.

In one of the possible or preferred embodiments, the cabinet body includes an off-odor cleaning device electrically connected to the controller and the off-odor cleaning device is disposed inside the cabinet body. The off-odor cleaning device is a negative ion cleaning device configured to ionize air molecules when the first switch circuit and the second switch circuit are switched-off, so as to generate a large amount of negative ions and a trace amount of ozone to neutralize an off-odor and extinguish bacteria.

In one of the possible or preferred embodiments, the cabinet body includes an off-odor cleaning device that is electrically connected to the controller and disposed inside the cabinet body, and the off-odor cleaning device is a photocatalytic ultraviolet cleaning device configured to irradiate ultraviolet light on a photocatalyst when the first switch circuit and the second switch circuit are switched-off, so as to generate oxygen-containing radicals with strong oxidizing properties to oxidize and decompose an off-odor and bacteria.

These and other aspects of the present disclosure will become apparent from the following description of the embodiment taken in conjunction with the following drawings and their captions, although variations and modifications therein may be affected without departing from the spirit and scope of the novel concepts of the disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The described embodiments may be better understood by reference to the following description and the accompanying drawings, in which:

FIG. 1 is a schematic perspective view of a flipper-type electronics cabinet having a circuit controlling device of the present disclosure;

FIG. 2 is a schematic front view of the flipper-type electronics cabinet having the circuit controlling device of the present disclosure;

FIG. 3 is a schematic cross-sectional view of the flipper-type electronics cabinet having the circuit controlling device of the present disclosure;

FIG. 4 is a schematic functional block diagram of the flipper-type electronics cabinet having the circuit controlling device of the present disclosure;

FIG. 5 is another schematic functional block diagram of the flipper-type electronics cabinet having the circuit controlling device of the present disclosure; and

FIG. 6 is yet another schematic functional block diagram of the flipper-type electronics cabinet having the circuit controlling device of the present disclosure.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

The present disclosure is more particularly described in the following examples that are intended as illustrative only since numerous modifications and variations therein will be apparent to those skilled in the art. Like numbers in the drawings indicate like components throughout the views. As used in the description herein and throughout the claims that follow, unless the context clearly dictates otherwise, the meaning of “a”, “an”, and “the” includes plural reference, and the meaning of “in” includes “in” and “on”. Titles or subtitles can be used herein for the convenience of a reader, which shall have no influence on the scope of the present disclosure.

The terms used herein generally have their ordinary meanings in the art. In the case of conflict, the present document, including any definitions given herein, will prevail. The same thing can be expressed in more than one way. Alternative language and synonyms can be used for any term(s) discussed herein, and no special significance is to be placed upon whether a term is elaborated or discussed herein. A recital of one or more synonyms does not exclude the use of other synonyms. The use of examples anywhere in this specification including examples of any terms is illustrative only, and in no way limits the scope and meaning of the present disclosure or of any exemplified term. Likewise, the present disclosure is not limited to various embodiments given herein. Numbering terms such as “first”, “second” or “third” can be used to describe various components, signals or the like, which are for distinguishing one component/signal from another one only, and are not intended to, nor should be construed to impose any substantive limitations on the components, signals or the like.

Embodiment

Referring to FIG. 1 to FIG. 4 , the present disclosure provides a flipper-type electronics cabinet 900 having a circuit controlling device 100. The flipper-type electronics cabinet 900 can be used to accommodate electronic appliances or other kitchen appliances, and the flipper-type electronics cabinet 900 can be mounted in base cabinets (i.e., cabinets below a kitchen counter), wall cabinets, or a kitchen island. The flipper-type electronics cabinet 900 includes a cabinet body 1, two first sliding rails 2, two second sliding rails 3, two third sliding rails 4, a carrying tray 5, a door plate 6, and an accommodating tray 7.

The cabinet body 1 is preferably square-shaped. The cabinet body 1 includes a top plate 11, a bottom plate 12, a rear plate 13, and two side plates 14, and the top plate 11, the bottom plate 12, the rear plate 13, and the two side plates 14 are connected to each other to form a hollow cabinet body. Since a structure of the cabinet body 1 is a conventional technology and is not limited in the present disclosure, the conventional structure is not described in detail herein.

Accordingly, a first space 15 and a second space 16 are formed inside the cabinet body 1, that is, the first space 15 and the second space 16 can be formed between the top plate 11, the bottom plate 12, the rear plate 13, and the two side plates 14. Preferably, the first space 15 is located above the second space 16, and a height of the first space H1 is greater than a height of the second space 16. The first space 15 can be used to accommodate electrical appliances such as electric pots, stewing pots, microwave ovens, and ovens. An opening 17 is formed at a front side of the cabinet body 1, and the opening 17 is in fluid communication with the first space 15 and the second space 16, so that electrical appliances can enter the first space 15 through the opening 17.

The two first sliding rails 2 are oppositely disposed on the two side plates 14 of the cabinet body 1. The two first sliding rails 2 are located in the first space 15. Preferably, the two first sliding rails 2 are located in the first space 15 and are adjacent to a bottom of the first space 15. The two second sliding rails 3 are oppositely disposed on the two side plates 14 of the cabinet body 1, and the two second sliding rails 3 can be located above the two first sliding rails 2. The two second sliding rails 3 are located in the first space 15. Preferably, the two first sliding rails 3 are located in the first space 15 and are adjacent to a top of the first space 15. The two third sliding rails 4 are oppositely disposed on the two side plates 14 of the cabinet body 1, and the two third sliding rails 4 can be located below the two first sliding rails 2. The two third sliding rails 4 are located in the second space 16. Since structures of the two first sliding rails 2, the two second sliding rails 3, and the two third sliding rails 4 are conventional technologies and are not limited in the present disclosure, the conventional structure is not described in detail herein.

A left side and a right side of the carrying tray 5 are respectively located on the two first sliding rails 2, so that the carrying tray 5 is located adjacent to the bottom of the accommodating space 15. The carrying tray 5 can be pulled out from or pushed in relative to the cabinet body 1 through the guiding of the two first sliding rails 2. Therefore, the carrying tray 5 can be horizontally moved (in a front-and-rear arrangement relative to the opening 17) in the cabinet body 1, so that the carrying tray 5 can be pushed in the cabinet body 1 or pulled out of the cabinet body 1. When the carrying tray 5 is pushed in the cabinet body 1, the carrying tray 5 is located in the first space 15. Therefore, electrical appliances can be placed on the carrying tray 5, and the carrying tray 5 can be used to bring the electrical appliances to be accommodated in the first space 15 of the cabinet body 1.

The door plate 6 is a plate that corresponds to the opening 17 and can be used to open or close the opening 17. A left side and a right side of the door plate 6 are respectively located on the two second sliding rails 3. In this embodiment, the door plate 6 is an upward flipping door plate, and when the door plate 6 opens the opening 17, the door plate 6 is located inside the first space 15 and is close to the top of the first space 15, so that the door plate 6 can be opened and closed relative to the cabinet body 1 through the guiding of the two second sliding rails 3.

In this embodiment, the door plate 6 includes a door plate front portion 61 and a door plate rear portion 62, the door plate front portion 61 and the door plate rear portion 62 are pivotally connected to each other by using pivotal connection components 63 such as hinges, so that the door plate front portion 61 and the door plate rear portion 62 are connected together. When the door plate front portion 61 and the door plate rear portion 62 are moved forward, the door plate front portion 61 can downwardly cover the opening 17 of the cabinet body 1, so that the opening 17 of the cabinet body 1 is closed. At this time, the door plate rear portion 62 is accommodated in the cabinet body 1. When the door plate front portion 61 and the door plate rear portion 62 are moved rearward, the door plate front portion 61 can be accommodated in the cabinet body 1, so that the opening 17 of the cabinet body 1 is opened. Therefore, the door plate 6 can slide on the two second sliding rails 3 in a front-and-rear arrangement relative to the opening 17 through the guiding of the two second sliding rails 3, so that the door plate 6 can be accommodated in the cabinet 1 after being flipped up.

A left side and a right side of the accommodating tray 7 are respectively located on the two third sliding rails 4, so that the accommodating tray 7 can be located in the second space 16. The accommodating tray 7 can be used to perform operations such as being pulled out or pushed in relative to the cabinet body 1 through the guiding of the two third sliding rails 4, so that the accommodating tray 7 can horizontally move in the cabinet body 1 in a front-and-rear arrangement relative to the opening 17. Accordingly, the accommodating tray 7 can be pushed in the cabinet body 1 or pulled out of the cabinet body 1, and when the accommodating tray 7 is pushed in the cabinet body 1, the accommodating tray 7 is located in the second space 16. Therefore, kitchen appliances (such as plastic wrap, thermally insulated gloves, pot clamp, and rice spoon) can be placed on the accommodating tray 7, and then the accommodating tray 7 brings the kitchen appliances to be accommodated in the second space 16 of the cabinet body 1.

In another embodiment, the two second sliding rails 3 can also be located in the second space 16, and the left side and the right side of the door plate 6 are respectively located on the two second sliding rails 3, so that the door plate 6 is a downward flipping door plate, and the door plate 6 can be opened and closed relative to the cabinet body 1 through the guiding of the two second sliding rails 3.

In addition, a first socket 91 and a second socket 92 are disposed at a rear side of the cabinet body 1. That is, the first socket 91 and the second socket 92 can be disposed on the rear plate 13 of the cabinet body 1, and the first socket 91 and the second socket 92 are accessible from the first space 15, respectively. Furthermore, as shown in FIG. 3 , the cabinet body 1 can further include a dividing plate 18 to separate the first space 15 from a mounting space 19, and at least one exhaust fan 93 can be located in the mounting space 19. As shown in FIG. 4 , the circuit controlling device 100 can be disposed on an appropriate location in the cabinet body 1. The circuit controlling device 100 includes a controlling interface 101, a controller 102, a master switch circuit 103, a first switch circuit 104, and a second switch circuit 105. The controller 102 is electrically connected to the controlling interface 101, the master switch circuit 103, the first switch circuit 104, and the second switch circuit 105. The first switch circuit 104 is electrically connected between the master switch circuit 103 and the first socket 91, and the second switch circuit 105 is electrically connected between the master switch circuit 103 and the second socket 92. In addition, the circuit controlling device 100 further includes an exhaust fan controlling circuit 106 that is such as a driving circuit or a pulse-width modulation (PWM) circuit, and the exhaust fan controlling circuit 106 is electrically connected between the controller 102 and the exhaust fan 93.

In this embodiment, the controlling interface 101 can be, but is not limited to being, exposed outside of the cabinet body 1 as a control panel. The controlling interface 101 is preferably exposed from the front side of the cabinet body 1. Furthermore, the controller 102, the master switch circuit 103, the first switch circuit 104, the second switch circuit 105, the exhaust fan controlling circuit 106, and relevant active and passive components can be integrated together to be a control substrate that is located in the mounting space 19. Furthermore, the controller 102 can also be integrated into the control panel that can be designed according to practical requirements, and the present disclosure is not intended to be limited thereto.

Furthermore, the controlling interface 101 can include a master switch key 1011, a first switch key 1012, and a second switch key 1013. The master switch key 1011, the first switch key 1012, and the second switch key 1013 can each be a pressing button or a touch-sensitive button, and the present disclosure is not intended to be limited thereto. The master switch key 1011 is used to generate a master switch signal that is transmitted to the controller 102 according to the pressing or touching of a user, the first switch key 1012 is used to generate a first switch signal that is transmitted to the controller 102 according to the pressing or touching of the user, and the second switch key 1013 is used to generate a second switch signal that is transmitted to the controller 102 according to the pressing or touching of the user.

Furthermore, the controller 102 is used to enter an operation mode or a standby mode according to the master switch signal that is received by the controller 102. When the user presses or touches the master switch key 1011 to generate the master switch signal that is transmitted to the controller 102, the controller 102 can enter the operation mode from the standby mode. When the user presses or touches the master switch key 1011 again to generate the master switch signal that is transmitted to the controller 102, the controller 102 can enter the standby mode from the operation mode. Furthermore, when the controller 102 enters the standby mode, the master switch circuit is switched-off, and when the controller 102 enters the operation mode, the master switch circuit is switched-on. When the controller 102 enters the operation mode, the controller 102 is used to respectively control the first switch circuit 104 and the second switch circuit 105 to be switched-on or switched-off according to the first switch signal and the second switch signal that are received by the controller 102. Therefore, for example, two electronic appliances are placed in the flipper-type electronics cabinet 900, e.g., a stewing pot and the electric rice cooker having only one pop-up switch. When the electric rice cooker finishes cooking, the pop-up switch of the electric rice cooker pops up so that the electric rice cooker starts warming food; at this time, the stewing pot still needs to perform cooking for a long period of time (e.g., from 4 hours to 6 hours). The user may press or touch the first switch key 1012 or the second switch key 1013 on the controlling interface 101 and corresponding to the electric rice cooker to switch off the first switch circuit 104 or the second switch circuit 105, so that the stewing pot continues operating and the electric rice cooker stops operating. In this way, when the user does not need the electric rice cooker to warm food, the user does not need to put his hand into the cabinet body 1 that is full of hot air to find the plug of the electric rice cooker and unplug the plug, thereby greatly improving convenience and safety in use.

In one embodiment, since two plugs of two electronic appliances inside of the flipper-type electronics cabinet 900 are plugged in the sockets for long durations (e.g., the plugs of the aforementioned stewing pot and the electric rice cooker are plugged on the first socket 91 and the second socket 92), the controller 102 is further used to continuously record a manually switched-off frequency of the first switch circuit 104 and the second switch circuit 105, so as to automatically switch off the first switch circuit 104 or the second switch circuit 105 according to a higher one of manually switched-off frequencies of the first switch circuit 104 and the second switch circuit 105.

Reference can be made to FIG. 5 , an off-odor cleaning device 94 that is electrically connected to the controller 102 can be disposed on appropriate locations inside the cabinet body 1, such as on the side plates 14 or the rear plate 13. The off-odor cleaning device 94 can be a negative ion cleaning device. When the first switch circuit 104 and the second switch circuit 105 are switched-off, that is, when the controller 102 receives the first switch signal and the second switch signal to switch off the first switch circuit 104 and the second switch circuit 105, the off-odor cleaning device 94 is configured to ionize air molecules, so as to generate a large amount of negative ions and a trace amount of ozone to neutralize an off-odor and extinguish bacteria. Therefore, the off-odor and the bacteria in the cabinet body 1 can be rapidly extinguished to ensure hygiene for future use. Furthermore, in the present disclosure, the off-odor cleaning device 94 can be a photocatalytic ultraviolet cleaning device. When the first switch circuit 104 and the second switch circuit 105 are switched-off, that is, when the controller 102 receives the first switch signal and the second switch signal to switch off the first switch circuit 104 and the second switch circuit 105, the off-odor cleaning device 94 is configured to irradiate ultraviolet light on a photocatalyst so as to generate oxygen-containing radicals with strong oxidizing properties to oxidize and decompose an off-odor and bacteria. Therefore, the sterilizing effects of the ultraviolet light and the photocatalyst can be combined so that the off-odor and the bacteria in the cabinet body 1 can be rapidly extinguished. In addition, the off-odor cleaning device 94 of the present disclosure can include both the aforementioned negative ion cleaning device and the photocatalytic ultraviolet cleaning device.

Reference can be further made to FIG. 6 , the first switch circuit 104 includes a first left switch 1041 and a first right switch 1042 that are electrically connected to each other and are electrically connected to the controller 102, respectively, and electric current can be supplied to the first socket 91 only when the first left switch 1041 and the first right switch 1042 are both switched-on.

Furthermore, the second switch circuit 105 includes a second left switch 1051 and a second right switch 1052 that are electrically connected to each other and are electrically connected to the controller 102, respectively, and electric current can be supplied to the second socket 92 only when the second left switch 1051 and the second right switch 1052 are both switched-on.

In this embodiment, the first left switch 1041 and the second left switch 1051 are semiconductor switches, and the first right switch 1042 and the second right switch 1052 are relay switches. Moreover, when the controller 102 switches the first switch circuit 104 or the second switch circuit 105 from being switched-on to being switched-off, the controller 102 switches the first left switch 1041 or the second left switch 1051 to quickly be switched-off, and then switches the first right switch 1042 or the second right switch 1052 to be switched-off. Therefore, when a large electrical current is supplied to the first socket 91 or the second socket 92, spark generation can be prevented when the first right switch 1042 or the second right switch 1052 (relay switches) is switched on and off, thereby improving stability for the overall circuit.

Beneficial Effects of the Embodiment

In conclusion, the flipper-type electronics cabinet 900 provided by the present disclosure includes a cabinet body 1, two first sliding rails 2, two second sliding rails 3, two third sliding rails 4, a carrying tray 5, a door plate 6, an accommodating tray 7, and a circuit controlling device 100. The circuit controlling device 100 is disposed in the cabinet body 1. The circuit controlling device 100 includes a controlling interface 101, a controller 102, a master switch circuit 103, a first switch circuit 104, and a second switch circuit 105. The first switch circuit 104 is electrically connected between the master switch circuit 103 and the first socket 91, and the second switch circuit 105 is electrically connected between the master switch circuit 103 and the second socket 92. The controlling interface 101 includes a master switch key 1011, a first switch key 1012, and a second switch key 1013, the master switch key 1011 is used to generate a master switch signal that is transmitted to the controller 102, the first switch key 1012 is used to generate a first switch signal that is transmitted to the controller 102, and the second switch key 1013 is used to generate a second switch signal that is transmitted to the controller 102. The controller 102 is used to enter an operation mode or a standby mode according to the master switch signal that is received by the controller 102. When the controller 102 enters the standby mode, the master switch circuit 103 is switched-off, and when the controller enters the operation mode, the master switch circuit 103 is switched-on. When the controller 102 enters the operation mode, the controller 102 is used to respectively control the first switch circuit 104 and the second switch circuit 105 to be switched-on or switched-off according to the first switch signal and the second switch signal that are received by the controller 102. Therefore, the user does not need to put his hand into the cabinet body 1 that is full of hot air to find the plug and unplug the plug, thereby greatly improving convenience and safety in use, and addressing a long existing issue in the relevant art.

The foregoing description of the exemplary embodiments of the disclosure has been presented only for the purposes of illustration and description and is not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching.

The embodiments were chosen and described in order to explain the principles of the disclosure and their practical application so as to enable others skilled in the art to utilize the disclosure and various embodiments and with various modifications as are suited to the particular use contemplated. Alternative embodiments will become apparent to those skilled in the art to which the present disclosure pertains without departing from its spirit and scope. 

What is claimed is:
 1. A flipper-type electronics cabinet, comprising: a cabinet body including a top plate, a bottom plate, a rear plate, and two side plates, wherein a first space and a second space are formed between the top plate, the bottom plate, the rear plate, and the two side plates; wherein an opening is formed at a front side of the cabinet body, and the opening is in fluid communication with the first space and the second space; wherein a first socket and a second socket are disposed at a rear side of the cabinet body and are accessible from the first space, respectively; two first sliding rails oppositely disposed on the two side plates of the cabinet body, wherein the two first sliding rails are located in the first space; two second sliding rails oppositely disposed on the two side plates of the cabinet body; two third sliding rails oppositely disposed on the two side plates of the cabinet body, wherein the two third sliding rails are located in the second space; a carrying tray, wherein a left side and a right side of the carrying tray are respectively located on the two first sliding rails; a door plate, wherein a left side and a right side of the door plate are respectively located on the two second sliding rails, and the door plate is capable of being opened and closed relative to the cabinet body; an accommodating tray, wherein a left side and a right side of the accommodating tray are respectively located on the two third sliding rails; and a circuit controlling device disposed in the cabinet body, wherein the circuit controlling device includes a controlling interface, a controller, a master switch circuit, a first switch circuit, and a second switch circuit; wherein the controller is electrically connected to the controlling interface, the master switch circuit, the first switch circuit, and the second switch circuit, the first switch circuit is electrically connected between the master switch circuit and the first socket, and the second switch circuit is electrically connected between the master switch circuit and the second socket; wherein the controlling interface includes a master switch key, a first switch key, and a second switch key, the master switch key is used to generate a master switch signal that is transmitted to the controller, the first switch key is used to generate a first switch signal that is transmitted to the controller, and the second switch key is used to generate a second switch signal that is transmitted to the controller; wherein the controller is used to enter an operation mode or a standby mode according to the master switch signal that is received by the controller; wherein, when the controller enters the standby mode, the master switch circuit is switched-off, and when the controller enters the operation mode, the master switch circuit is switched-on; wherein, when the controller enters the operation mode, the controller is used to respectively control the first switch circuit and the second switch circuit to be switched-on or switched-off according to the first switch signal and the second switch signal that are received by the controller.
 2. The flipper-type electronics cabinet according to claim 1, wherein the first switch circuit includes a first left switch and a first right switch that are electrically connected to each other and are electrically connected to the controller, respectively, and the second switch circuit includes a second left switch and a second right switch that are electrically connected to each other and are electrically connected to the controller, respectively; wherein the first left switch and the second left switch are semiconductor switches, and the first right switch and the second right switch are relay switches; wherein, when the controller switches the first switch circuit or the second switch circuit from being switched-on to being switched-off, the controller switches the first left switch or the second left switch to quickly be switched-off, and then switches the first right switch or the second right switch to be switched-off.
 3. The flipper-type electronics cabinet according to claim 1, wherein the controller is further used to continuously record a manually switched-off frequency of the first switch circuit and the second switch circuit, so as to automatically switch off the first switch circuit or the second switch circuit according to a higher one of manually switched-off frequencies of the first switch circuit and the second switch circuit.
 4. The flipper-type electronics cabinet according to claim 1, wherein the cabinet body includes at least one exhaust fan disposed inside the cabinet body, the circuit controlling device further includes an exhaust fan controlling circuit, and the exhaust fan controlling circuit is electrically connected between the controller and the at least one exhaust fan.
 5. The flipper-type electronics cabinet according to claim 1, wherein the cabinet body includes an off-odor cleaning device electrically connected to the controller and the off-odor cleaning device is disposed inside the cabinet body, and wherein the off-odor cleaning device is a negative ion cleaning device configured to ionize air molecules when the first switch circuit and the second switch circuit are switched-off, so as to generate a large amount of negative ions and a trace amount of ozone to neutralize an off-odor and extinguish bacteria.
 6. The flipper-type electronics cabinet according to claim 1, wherein the cabinet body includes an off-odor cleaning device that is electrically connected to the controller and disposed inside the cabinet body, and the off-odor cleaning device is a photocatalytic ultraviolet cleaning device configured to irradiate ultraviolet light on a photocatalyst when the first switch circuit and the second switch circuit are switched-off, so as to generate oxygen-containing radicals with strong oxidizing properties to oxidize and decompose an off-odor and bacteria. 